Robotic medical assistant vehicle and interface

1. A robotic medical assistant vehicle and interface (R-MAVI) comprising: a plurality of drive motors; a plurality of wheels configured to move the R-MAVI between locations, wherein the plurality of wheels comprise two front wheels with front wheel dimeters and two back wheels with back wheel diameters, wherein the front wheel diameters are shorter than the back wheel diameters; a base plate; a micro-controller configured to early out logic instruction sets for engaging patients and automatically moving the R-MAVI to different locations; a line sensor configured to detect a line pathway to follow for navigating the MAW while moving between locations; a plurality of ultrasonic sensors that are configured to detect distance to objects in a path of the R-MAVI while moving; a vitals measurement system and vital sign monitor; an EKG sensor that is configured to measure EKG for heart rate of the patient when a finger of the patient is in contact with the EKG sensor; an internal temperature sensor that is configured to measure internal body temperature of the patient; a blood pressure testing machine configured to measure blood pressure of the patient; an oxygen saturation probe configured to measure oxygen saturation of the patient; a wireless communication module configured to receive instructions for operating and navigating the R-MAVI, said instructions for operating and navigating the R-MAVI transmitted from the wireless communication module to the micro-controller for realtime processing; a pair of side rail arms; a tablet computing device with a mobile app and interface configured to provide patient interaction and data input; a tablet mount to which the tablet computing device is mounted; a rotating pivot arm to which the tablet mount is mounted; a plurality of pivot arm motors configured to rotate the rotating pivot arm between a raised orientation and a forward orientation; a seat on which the patient may be seated; a seat box that is positioned on the base plate and on which the seat is positioned, wherein the seat box encloses one or more electrical components of the R-MAVI; a protective casing comprising a hood and isolation tarp; a rotating encasing arm that is attached to the protective casing and is configured to rotate down to reveal the protective casing and to rotate up to a raised position that conceals the protective casing, wherein the rotating encasing arm is configured to pull the protective casing along a downward rotation path as the rotating encasing arm rotates down to a lowered position disposed along the base plate to encapsulate the rotating pivot arm, the tablet mount, the tablet computing device, the pair of side rails, the seat box, the seat, and the patient when the patient is seated on the seat; a weight scale under the seat and above the seat box which detects the patient's weight when seated on the seat; and a plurality of batteries that provide power to the drive motors, the pivot arm motors, the micro-controller, the line sensor, the plurality of ultrasonic sensors, the vitals measurement system and vital sign monitor, the EKG sensor, the internal temperature sensor, the blood pressure testing machine, the oxygen saturation probe, the wireless communication module, and the weight scale.

2. The R-MAVI of claim 1 further comprising a COVID-19 test kit with a bio-sample swab device that is configured to capture a saliva sample of the patient when throat and nostrils of the patient contact the bio-sample swab device.

3. The R-MAVI of claim 1 , wherein the batteries are lithium-ion batteries mounted to the base plate.

4. The R-MAVI of claim 1 , wherein the two back wheels are connected to the drive motors.

5. The R-MAVI of claim 1 , wherein the line sensor is mounted to an external surface of the base plate between the two front wheels.

6. The R-MAVI of claim 1 , wherein the plurality of ultrasonic sensors comprise two front ultrasonic sensors and two back ultrasonic sensors.

7. The R-MAVI of claim 6 , wherein the two front ultrasonic sensors are configured to detect distance in front of the R-MAVI as the R-MAVI is moving forward and the two back ultrasonic sensors are configured to detect distance behind the R-MAVI as the R-MAVI is moving backward.

8. The R-MAVI of claim 1 , wherein the R-MAVI is configured to rest on a platform of an external sanitizing tunnel system to disinfect and clean the R-MAVI after use.

9. The R-MAVI of claim 1 , wherein the protective casing is made of translucent acrylic.